ppp-2.4.3/README.pwfd - platform/external/ppp - Git at Google


 	Support to pass the password via a pipe to the pppd
 	---------------------------------------------------

 	Arvin Schnell <arvin@suse.de>
 	2002-02-08


 1. Introduction
 ---------------

 Normally programs like wvdial or kppp read the online password from their
 config file and store them in the pap- and chap-secrets before they start the
 pppd and remove them afterwards. Sure they need special privileges to do so.

 The passwordfd feature offers a simpler and more secure solution. The program
 that starts the pppd opens a pipe and writes the password into it. The pppd
 simply reads the password from that pipe.

 This methods is used for quiet a while on SuSE Linux by the programs wvdial,
 kppp and smpppd.


 2. Example
 ----------

 Here is a short C program that uses the passwordfd feature. It starts the pppd
 to buildup a pppoe connection.


 --snip--

 #include <stdio.h>
 #include <stdlib.h>
 #include <unistd.h>
 #include <signal.h>
 #include <string.h>
 #include <paths.h>

 #ifndef _PATH_PPPD
 #define _PATH_PPPD "/usr/sbin/pppd"
 #endif


 // Of course these values can be read from a configuration file or
 // entered in a graphical dialog.
 char *device = "eth0";
 char *username = "1122334455661122334455660001@t-online.de";
 char *password = "hello";

 pid_t pid = 0;


 void
 sigproc (int src)
 {
     fprintf (stderr, "Sending signal %d to pid %d\n", src, pid);
     kill (pid, src);
     exit (EXIT_SUCCESS);
 }


 void
 sigchild (int src)
 {
     fprintf (stderr, "Daemon died\n");
     exit (EXIT_SUCCESS);
 }


 int
 start_pppd ()
 {
     signal (SIGINT, &sigproc);
     signal (SIGTERM, &sigproc);
     signal (SIGCHLD, &sigchild);

     pid = fork ();
     if (pid < 0) {
 	fprintf (stderr, "unable to fork() for pppd: %m\n");
 	return 0;
     }

     if (pid == 0) {

 	int i, pppd_argc = 0;
 	char *pppd_argv[20];
 	char buffer[32] = "";
 	int pppd_passwdfd[2];

 	for (i = 0; i < 20; i++)
 	    pppd_argv[i] = NULL;

 	pppd_argv[pppd_argc++] = "pppd";

 	pppd_argv[pppd_argc++] = "call";
 	pppd_argv[pppd_argc++] = "pwfd-test";

 	// The device must be after the call, since the call loads the plugin.
 	pppd_argv[pppd_argc++] = device;

 	pppd_argv[pppd_argc++] = "user";
 	pppd_argv[pppd_argc++] = username;

 	// Open a pipe to pass the password to pppd.
 	if (pipe (pppd_passwdfd) == -1) {
 	    fprintf (stderr, "pipe failed: %m\n");
 	    exit (EXIT_FAILURE);
 	}

 	// Of course this only works it the password is shorter
 	// than the pipe buffer. Otherwise you have to fork to
 	// prevent that your main program blocks.
 	write (pppd_passwdfd[1], password, strlen (password));
 	close (pppd_passwdfd[1]);

 	// Tell the pppd to read the password from the fd.
 	pppd_argv[pppd_argc++] = "passwordfd";
 	snprintf (buffer, 32, "%d", pppd_passwdfd[0]);
 	pppd_argv[pppd_argc++] = buffer;

 	if (execv (_PATH_PPPD, (char **) pppd_argv) < 0) {
 	    fprintf (stderr, "cannot execl %s: %m\n", _PATH_PPPD);
 	    exit (EXIT_FAILURE);
 	}
     }

     pause ();

     return 1;
 }


 int
 main (int argc, char **argv)
 {
     if (start_pppd ())
 	exit (EXIT_SUCCESS);

     exit (EXIT_FAILURE);
 }

 ---snip---


 Copy this file to /etc/ppp/peers/pwfd-test. The plugins can't be loaded on the
 command line (unless you are root) since the plugin option is privileged.


 ---snip---

 #
 # PPPoE plugin for kernel 2.4
 #
 plugin pppoe.so

 #
 # This plugin enables us to pipe the password to pppd, thus we don't have
 # to fiddle with pap-secrets and chap-secrets. The user is also passed
 # on the command line.
 #
 plugin passwordfd.so

 noauth
 usepeerdns
 defaultroute
 hide-password
 nodetach
 nopcomp
 novjccomp
 noccp

 ---snip---

	Support to pass the password via a pipe to the pppd
	---------------------------------------------------

	Arvin Schnell <arvin@suse.de>
	2002-02-08


	1. Introduction
	---------------

	Normally programs like wvdial or kppp read the online password from their
	config file and store them in the pap- and chap-secrets before they start the
	pppd and remove them afterwards. Sure they need special privileges to do so.

	The passwordfd feature offers a simpler and more secure solution. The program
	that starts the pppd opens a pipe and writes the password into it. The pppd
	simply reads the password from that pipe.

	This methods is used for quiet a while on SuSE Linux by the programs wvdial,
	kppp and smpppd.


	2. Example
	----------

	Here is a short C program that uses the passwordfd feature. It starts the pppd
	to buildup a pppoe connection.


	--snip--

	#include <stdio.h>
	#include <stdlib.h>
	#include <unistd.h>
	#include <signal.h>
	#include <string.h>
	#include <paths.h>

	#ifndef _PATH_PPPD
	#define _PATH_PPPD "/usr/sbin/pppd"
	#endif


	// Of course these values can be read from a configuration file or
	// entered in a graphical dialog.
	char *device = "eth0";
	char *username = "1122334455661122334455660001@t-online.de";
	char *password = "hello";

	pid_t pid = 0;


	void
	sigproc (int src)
	{
	fprintf (stderr, "Sending signal %d to pid %d\n", src, pid);
	kill (pid, src);
	exit (EXIT_SUCCESS);
	}


	void
	sigchild (int src)
	{
	fprintf (stderr, "Daemon died\n");
	exit (EXIT_SUCCESS);
	}


	int
	start_pppd ()
	{
	signal (SIGINT, &sigproc);
	signal (SIGTERM, &sigproc);
	signal (SIGCHLD, &sigchild);

	pid = fork ();
	if (pid < 0) {
	fprintf (stderr, "unable to fork() for pppd: %m\n");
	return 0;
	}

	if (pid == 0) {

	int i, pppd_argc = 0;
	char *pppd_argv[20];
	char buffer[32] = "";
	int pppd_passwdfd[2];

	for (i = 0; i < 20; i++)
	pppd_argv[i] = NULL;

	pppd_argv[pppd_argc++] = "pppd";

	pppd_argv[pppd_argc++] = "call";
	pppd_argv[pppd_argc++] = "pwfd-test";

	// The device must be after the call, since the call loads the plugin.
	pppd_argv[pppd_argc++] = device;

	pppd_argv[pppd_argc++] = "user";
	pppd_argv[pppd_argc++] = username;

	// Open a pipe to pass the password to pppd.
	if (pipe (pppd_passwdfd) == -1) {
	fprintf (stderr, "pipe failed: %m\n");
	exit (EXIT_FAILURE);
	}

	// Of course this only works it the password is shorter
	// than the pipe buffer. Otherwise you have to fork to
	// prevent that your main program blocks.
	write (pppd_passwdfd[1], password, strlen (password));
	close (pppd_passwdfd[1]);

	// Tell the pppd to read the password from the fd.
	pppd_argv[pppd_argc++] = "passwordfd";
	snprintf (buffer, 32, "%d", pppd_passwdfd[0]);
	pppd_argv[pppd_argc++] = buffer;

	if (execv (_PATH_PPPD, (char **) pppd_argv) < 0) {
	fprintf (stderr, "cannot execl %s: %m\n", _PATH_PPPD);
	exit (EXIT_FAILURE);
	}
	}

	pause ();

	return 1;
	}


	int
	main (int argc, char **argv)
	{
	if (start_pppd ())
	exit (EXIT_SUCCESS);

	exit (EXIT_FAILURE);
	}

	---snip---


	Copy this file to /etc/ppp/peers/pwfd-test. The plugins can't be loaded on the
	command line (unless you are root) since the plugin option is privileged.


	---snip---

	#
	# PPPoE plugin for kernel 2.4
	#
	plugin pppoe.so

	#
	# This plugin enables us to pipe the password to pppd, thus we don't have
	# to fiddle with pap-secrets and chap-secrets. The user is also passed
	# on the command line.
	#
	plugin passwordfd.so

	noauth
	usepeerdns
	defaultroute
	hide-password
	nodetach
	nopcomp
	novjccomp
	noccp

	---snip---